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【材料科学名家系列讲座15】Using Polymer Physics to Solve Industrial Challenges

发布日期:2023-09-27 作者: 编辑:科研办公室 点击:

报告题目:Using Polymer Physics to Solve Industrial Challenges

报告人:Stephen Michielsen 教授

主持人(邀请人):李芳菲 教授

报告时间:9月28日下午14:00-16:30

报告地点:吉林大学南岭校区机械材料馆209学术报告厅

主办单位:汽车材料教育部重点实验室;吉林大学材料科学与工程学院

报告摘要:

In this seminar, Prof Michielsen will show how he solved three industrial challenges:

1) diffusion of a curing agent,

2) fiber-fiber boundary friction,

3) creating a photodynamic, antiviral facemask capable of killing influenza or COVID viruses.

Diffusion depends on the size of the diffusant and the temperature relative to the glass transition temperature which were modelled to estimate the cure time for a room-temperature resin. For fiber-fiber boundary friction, the most important variables were the excluded volume of the lubricant polymer and the radius of gyration of the fiber substrate polymer. Finally, the antiviral filter mask relied on a “graft-to” polymer to introduce sufficient surface-active moieties to impart effective antiviral activity.

报告人简介:

Prof Michielsen obtained his Chemistry Ph.D. from the University of Chicago followed by a Post-Doctoral Fellowship at Stanford University. From there, he joined the DuPont Company in Polymers and subsequently moved to their Fiber’s business. He was recruited by the Georgia Institute of Technology in the School of Polymers, Fibers and Textiles and later moving to the Wilson College of Textiles at North Carolina State University. Recently, he moved to the Royal Melbourne Institute of Technology (RMIT) in their School of Fashion and Textiles. His current research efforts focus on the interaction of liquids with textiles.

Prof. Michielsen spent 15 years in industry and over 25 years in academia. His research is highly multidisciplinary, ranging from small molecule synthesis to chemical and biological agent protection, to wetting and wicking for comfort, and bloodstain pattern analysis. The underlying theme of his research is modifying the surface of fibers and textile construction to obtain the desired properties for textile applications. In these roles, he has partnered with aerospace engineers, molecular modelers, materials scientists, fabric designers, and fashion designers, bringing depth and breadth to his research.

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